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All Projects → twitter → Rpc Perf

twitter / Rpc Perf

Licence: other
A tool for benchmarking RPC services

Programming Languages

rust
11053 projects

rpc-perf

rpc-perf was created to help measure the performance of caching systems. We've found this tool to be useful for validating performance of cache backends, effects of kernel version and system tuning, as well as testing new hardware platforms and network changes.

BEWARE rpc-perf can write to its target and can generate many requests

  • run only if data in the server can be lost/destroyed/corrupted/etc
  • run only if you understand the impact of sending high-levels of traffic across your network

Contents

Getting rpc-perf

rpc-perf is built through the cargo command which ships with rust. If you don't have Rust installed, you can use rustup to manage your Rust installation. Otherwise, follow the instructions on rust-lang.org to get Rust and Cargo installed. rpc-perf targets stable Rust.

Build from source

With rust installed, clone this repo, and cd into this folder:

git clone https://github.com/twitter/rpc-perf.git
cd rpc-perf
cargo build --release

This will produce a binary at target/release/rpc-perf which can be run in-place or copied to a more convenient location on your system.

Configuration

rpc-perf is configured through a combination of a TOML config file and command line parameters. If an option is specified in both the config file and on the command line, the command line wins. See the --help and the example configurations in rpc-perf/configs to learn more about configuration.

Sample Usage

BEWARE use caution when running rpc-perf

# display help
rpc-perf --help

# use a config file and specify an endpoint
rpc-perf --config some_config.toml --endpoint 127.0.0.1:11211

# use a config file and override the request rate
rpc-perf --config some_config.toml --endpoint 127.0.0.1:11211 --request-rate 200000

# use a config file and override the protocol
rpc-perf --config some_config.toml --endpoint 127.0.0.1:6379 --protocol redis

# generate a waterfall plot of request latency
rpc-perf --config some_config.toml --endpoint 127.0.0.1:11211 --interval 60 --windows 5 --waterfall waterfall.png

Stats Port

Use the --listen or listen option in the general section of your TOML config to enable HTTP based stats exposition. This will allow for scraping the metrics provided by rpc-perf into Prometheus or other compatible observability stack. A typical use case would be for long-running tests where you wish to correlate client metrics with system or service metrics.

Admin Port

Use the --admin or admin option in the general section of your TOML config to enable a HTTP admin endpoint. You can use this endpoint to change the request ratelimit using PUT requests. For example, if configured with port 40404 as the admin port: curl -X PUT -d 100 127.0.0.1:40404/ratelimit/request would update the current rate to 100 requests per second. To use this, you must set a request ratelimit when launching rpc-perf.

Practices

  • Start with a short test before moving on to tests spanning larger periods of time
  • If comparing latency between two setups, be sure to set a ratelimit that's achievable on both
  • Keep --clients below the number of cores on the machine generating workload
  • Increase --poolsize as necessary to simulate production-like connection numbers
  • You may need to use multiple machines to generate enough workload and/or connections to the target
  • Log your configuration and results to make repeating and sharing experiments easy
  • Use waterfalls to help visualize latency distribution over time and see anomalies

Features

  • high-resolution latency metrics
  • supports memcache and redis protocols
  • mio for async networking
  • optional waterfall visualization of latencies
  • powerful workload configuration

Support

Create a new issue on GitHub.

Contributing

We feel that a welcoming community is important and we ask that you follow Twitter's Open Source Code of Conduct in all interactions with the community.

Authors

A full list of contributors can be found on GitHub.

Follow @TwitterOSS on Twitter for updates.

License

Copyright 2015-2019 Twitter, Inc.

Licensed under the Apache License, Version 2.0: https://www.apache.org/licenses/LICENSE-2.0

Security Issues?

Please report sensitive security issues via Twitter's bug-bounty program (https://hackerone.com/twitter) rather than GitHub.

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